CN220800228U - Aerobic sports shoe pad - Google Patents

Abstract

The utility model provides an aerobic exercise insole, which comprises a latex bottom, a soft cushion fixed above the latex bottom and a sterile film coated above the soft cushion, wherein a plurality of ventilation holes are opened on the latex bottom, and fine bulges are arranged at the bottom; the cushion is split into a plurality of small areas by a plurality of tearing lines; the sterile film is larger than the upper surface of the soft cushion, and a plurality of bonding points are arranged at the edge; the double composite soft material is beneficial to redistributing the force application condition of the foot of a patient according to the thickness; for patients who do not heal completely, the force applied to the broken part can be avoided by removing a part of the soft cushion; the tiny hard objects entering the shoe can move in the shoe due to the movement, and once entering the bottom of the insole, the tiny hard objects are clamped and fixed by the tiny bulges below, so that the injury times to patients are reduced; the disposable sterile film is thrown away after being used up, so that the retention of bacteria on the insole is reduced.

Description

Aerobic sports shoe pad

Technical Field

The utility model relates to the field of insoles, in particular to an aerobic exercise insole.

Background

Diabetes is a metabolic disease characterized by hyperglycemia, and the number of individuals suffering from it is large. In addition to detecting blood glucose, taking medications and controlling diet, diabetes treatment must be equipped with exercise to regulate its own sensitivity to insulin.

One of the most common symptoms of diabetics is diabetic foot. The main reasons for the occurrence of the disease are lower limb blood supply deficiency or foot infection caused by vascular lesions.

The former requires aerobic exercise to achieve regulation of blood supply, and the latter is often due to injury during exercise. (diabetic foot, because of neuropathy, has a burning sensation, and the foot is no longer sensitive to touch, is difficult to detect after injury).

Once a breakage injury occurs, there is an arrangement as follows, as the case may be:

1. if there is infection at the damaged place, the sport is not recommended;

2. If the damaged site has not healed, but there has been no infection, non-weight bearing exercise may be performed with cardiopulmonary function allowed;

3. After the damaged part is completely healed, aerobic exercise and anti-resistance exercise can be performed according to the self condition, so that sedentary sitting is avoided.

Because of deformity change caused by diabetic feet, the prior insoles are difficult to be matched with the feet of a patient, and the stress of the feet is redistributed; meanwhile, because the patient needs to do aerobic exercise, the general exercise point is selected to be close to the green plant, which means that hard objects such as gravels, crushed stones and the like easily enter the shoes, are difficult to find when entering, and can cause foot injury; finally, the plantar environment of the diabetes is beneficial to fungus growth, has the characteristic of blocking the function of white blood cells, and reduces bacterial breeding and stay, which is a function which is difficult to realize by the prior insole.

Disclosure of utility model

In view of the above-mentioned drawbacks of the prior art, the present utility model provides an aerobic exercise insole comprising a latex bottom 1, a cushion 2 fixed above the latex bottom 1, and a fungus-insulating film 3 coated above the cushion 2,

The latex bottom 1 is opened with a plurality of ventilation holes, and the bottom is provided with fine bulges;

The cushion 2 is split into a plurality of small areas by a plurality of tear lines 21;

the bacteria-isolating film 3 is larger than the upper surface of the soft cushion 2, and a plurality of bonding points are arranged at the edge.

Preferably, the latex sole 1 is an integral structure formed by the soft pad 2 and is fit with the foot of a patient.

Preferably, the latex sole 1 is thickest in the area of application of force to the sole of the patient, next to the adjacent area and finally the rest.

Preferably, the cushion 2 is positioned thinnest in the area of application of force to the patient's sole, next to the adjacent area and finally the remaining area.

Preferably, the bacteria-isolating film 3 is made of PU material.

Preferably, a water absorption layer is also arranged between the soft cushion 2 and the latex bottom 1;

Or alternatively, the first and second heat exchangers may be,

A bacteriostatic layer is arranged between the soft cushion 2 and the latex bottom 1.

Preferably, the cushion 2 is polychloroprene.

The utility model has the beneficial effects that:

1. the double composite soft material is beneficial to redistributing the force application condition of the foot of the patient according to the thickness;

2. For patients who do not heal completely, the force applied to the broken part can be avoided by removing a part of the soft cushion;

3. The tiny hard objects entering the shoe can move in the shoe due to the movement, and once entering the bottom of the insole, the tiny hard objects are clamped and fixed by the tiny bulges below, so that the injury times to patients are reduced;

4. the disposable sterile film is thrown away after being used up, so that the retention of bacteria on the insole is reduced.

Drawings

FIG. 1 is an overall block diagram of the present utility model;

FIG. 2 is a block diagram of a cushion according to the present utility model;

FIG. 3 is a cross-sectional view of the present utility model;

FIG. 4 is a schematic diagram of a specific crowd structure according to the present utility model;

In the drawing the view of the figure,

1. A latex bottom; 2. a soft cushion; 3. a sterile membrane; 21. a tear line.

Detailed Description

The present invention will be further described with reference to the following examples in order to better understand the technical solutions of the present invention and to make the above features, objects and advantages of the present invention more clearly understood. The examples are only for illustrating the present invention and are not intended to limit the scope of the present invention.

Referring to fig. 1-3, the present utility model includes: an aerobic exercise insole comprises a latex bottom 1, a soft cushion 2 fixed above the latex bottom 1 and a fungus-isolating film 3 coated above the soft cushion 2,

The latex bottom 1 is opened with a plurality of ventilation holes, and the bottom is provided with fine bulges; the latex sole 1 is used as a base of the insole, the whole thickness is 1-1.5mm, the insole is easy to deform and fit with the curve of a human body, the ventilation holes are used for accelerating the replacement of air pressure when being pressed, and the bulges at the bottom are used for clamping hard objects such as stones. On the contrary, after each movement, the insole needs to be taken out to detect whether stones exist in the shoe or on the insole, and meanwhile, the insole needs to be completely in place during installation, and the effect of adjusting through a stepping mode is poor.

The cushion 2 is split into a plurality of small areas by a plurality of tear lines 21; the soft cushion 2 is polychloroprene, namely chloroprene rubber, has certain flexibility with the whole thickness of 0.3-1mm, restricts the deformation of the latex bottom 1 while fitting the human body, and prevents the latex bottom 1 from guiding the vicious circle of the plantar deformation again after the plantar deformation influences the deformation of the latex bottom 1. The plurality of tear lines 21 are split into a plurality of small areas and once there is an incompletely healed wound on the bottom of the patient, the force applied to the break can be avoided by removing a portion of the cushion. To cater for the implementation of tearing the cushion, the latex backing 1 and cushion 2 can be bonded by multi-point bonding, with glue points corresponding to small areas.

In order to better meet the force application of the diabetic foot, the latex sole 1 is an integral structure formed by the latex sole and the soft cushion 2, and is attached to the foot of a patient. The patient's foot is generally of the type having several common foot types: normal feet, flat feet and high arches, i.e. different curves can be used for different foot types.

In terms of the relative thickness arrangement of the latex bed 1 and the cushion 2, the latex bed is generally adjusted according to the force application mode, and the latex bed is arranged as follows: the latex sole 1 is thickest in the application area of the sole of the patient, next to the adjacent area and finally the rest area.

The cushion 2 is positioned thinnest in the area of application of force to the patient's sole, next to the adjacent area and finally the remaining area.

Taking a standard foot as an example, the force application area is the inner side of the front plantar area and the outer side of the foot root area, and the latex sole 1 is arranged to be thickest at the front plantar area and the foot root area of the sole of the patient, and is the outer side area and is the plantar arch area.

The cushion 2 is thinnest in the plantar anterior plantar and heel regions of the patient, secondly the lateral region and finally the plantar arch region.

The flat foot is the plantar arch region and the high arch foot is the lateral region.

The supplementary reason is to set up the adjacent area to match the possible plantar distortion of the patient, and the shape change is a self-adjusting buffer area.

The bacteria-isolating film 3 is larger than the upper surface of the soft cushion 2, and a plurality of bonding points are arranged at the edge. Normally, the bacteria-isolating film 3 is independently arranged on the outer side, is a disposable consumable, and can be used as required, and the storage mode can be a plurality of stacked or a plurality of wound along a shaft. The bacteria-isolating film 3 is made of PU material, has certain toughness and is thin. After the bonding, the whole edge is 1-2mm larger than the soft pad 2, and the bonding is positioned on the side walls of the latex bottom 1 and the soft pad 2.

Referring to fig. 4, in order to adapt to a part of special applicable people, a water-absorbing layer is also arranged between the soft pad 2 and the latex bottom 1, and the water-absorbing layer can be cotton and is suitable for the people with excessive foot sweat;

Or alternatively, the first and second heat exchangers may be,

A bacteriostatic layer is arranged between the soft cushion 2 and the latex bottom 1, and the bacteriostatic layer can be built-in traditional Chinese medicine components or nano silver to achieve the aim of bacteriostasis. But both have limited service lives.

The above-described embodiments are merely illustrative of the principles of the present application and their effectiveness, and are not intended to limit the present application. Modifications and variations may be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the present application. Accordingly, it is intended that all equivalent modifications and variations which a person having ordinary skill in the art would accomplish without departing from the spirit and technical spirit disclosed in the present patent application shall be covered by the claims of the present patent application.

Claims (7)

1. An aerobic exercise insole is characterized by comprising a latex bottom (1), a soft cushion (2) fixed above the latex bottom (1) and a fungus-isolating film (3) coated above the soft cushion (2),

A plurality of ventilation holes are opened on the latex bottom (1), and fine bulges are arranged at the bottom;

The cushion (2) is split into a plurality of small areas by a plurality of tearing lines (21);

The bacteria-isolating film (3) is larger than the upper surface of the soft cushion (2), and a plurality of bonding points are arranged at the edge.

2. An aerobic exercise insole according to claim 1, wherein: the latex bottom (1) is an integral structure formed by the latex bottom and the soft cushion (2) and is attached to the foot of a patient.

3. An aerobic exercise insole according to claim 2, wherein: the latex bottom (1) is thickest in the position of the force application area on the sole of the patient, and is next to the area, and finally the rest area is left.

4. An aerobic exercise insole according to claim 3, wherein: the soft pad (2) is positioned thinnest in the area exerting force on the sole of the patient, and is next to the adjacent area and finally the rest area.

5. An aerobic exercise insole according to claim 1, wherein: the bacteria-isolating film (3) is made of PU material.

6. An aerobic exercise insole according to claim 1, wherein: a water absorption layer is also arranged between the soft cushion (2) and the latex bottom (1);

Or alternatively, the first and second heat exchangers may be,

And a bacteriostatic layer is arranged between the soft cushion (2) and the latex bottom (1).

7. An aerobic exercise insole according to claim 1, wherein: the soft cushion (2) is polychloroprene.